KR100912409B1 - Condensation water drain device - Google Patents

Abstract

A condensate drain device is provided to easily check the internal state by making a vertical pipe transparent. A condensate drain device comprises a transparent vertical pipe(110), a first and a second partition(120,130), and a shutoff valve. The transparent vertical pipe is connected to the lower part of a duct vertically. The first partition is extended horizontally to the bottom from the inside of the vertical pipe one part. The second partition is extended horizontally to the top from the inside of the vertical pipe the other part. The shutoff valve is opened, if the difference of the pressure applied in the inside and the outside is over a pre-set value. The first partition and the second partition form a U-shaped conduit line inside the vertical pipe.

Description

Condensation Water Drain Device

The present invention relates to a condensate drainage device for smoothly draining condensate generated by condensation from a gas flowing inside a pipe such as a duct or a pipe.

When air flows in a tube such as a duct, a pipe, or a scrubber, condensate is generated inside the tube due to a temperature difference with the surroundings. Condensate builds up inside the tube, disrupting the fluid flow inside the tube and causing abnormal operation of the fluid. In order to solve this problem, a device for draining the condensate inside the pipe is installed at the bottom of the pipe.

1 shows a condensate drainage device according to the prior art. Referring to FIG. 1, a condensate collecting part 2 is formed at a lower part of the duct 1 to collect condensed water generated in the air inside the duct 1, and a valve 3 is provided at the lower part of the condensate collecting part 2. It is connected. A 'U' trap 901 is connected to the bottom of the valve (3). The condensed water W generated in the duct 1 is stored in the 'U' trap 901, and the condensed water W overflowing from the 'U' trap 901 is drained downward. The condensate W stored in the 'U' trap 901 prevents outside air from entering the duct 1. The 'U' trap 901 is provided with a transparent window 902 that can check the internal state of the 'U' trap (901).

When the amount of evaporation of the condensate water W in the 'U' trap 901 is greater than the amount of condensation, the condensate W in the 'U' trap 901 is rapidly evaporated and disappears. In this case, unnecessary external air is introduced into the duct 1 through the U-shaped trap 901 to increase the load of the fan, lower the airflow amount of the duct 1, and contaminants leak to the outside. Cause.

In addition, when the U-shaped trap 901 is installed outdoors, there is a fear that the condensed water (W) freezes in the winter and freezes. In addition, the 'U' trap 901 occupies a large volume. And, it is not easy to check a state such as internal pressure.

The present invention has been made to overcome the above-described problems, and an object of the present invention is to provide a condensate drainage device having a reduced installation space. In addition, an object of the present invention is to provide a condensate drainage device that can easily check the internal state and can measure the pressure. Moreover, an object of this invention is to provide the condensate drainage apparatus which prevents freezing by the inside condensate. In addition, an object of the present invention is to provide a condensate drainage device that prevents the condensate inside disappears by evaporation. In addition, an object of the present invention is to provide a condensate drainage device that blocks outside air from entering when there is no condensate.

In order to achieve the above object, the present invention is a device for draining the condensate generated in the duct is installed on the lower side of the duct, a transparent vertical pipe coupled vertically to the lower side of the duct; A first partition extending horizontally from one inner surface of the vertical pipe and extending vertically downward; And a second partition extending horizontally from the other inner surface of the vertical pipe and then vertically extending upward, wherein the first partition and the second partition provide a condensate drainage device forming a 'U'-shaped pipe line inside the vertical pipe. .

The upper portion of the 'U' pipe is preferably contained in the water evaporation prevention liquid. The vertical pipe may further include an injection hole for injecting the water evaporation preventing liquid into the 'U'-shaped pipe.

The vertical tube may be manufactured in duplicate, or further include a temperature raising device for raising the temperature of the vertical tube.

The riser may further act as a positive pressure check gauge further comprising a scale formed on the outer wall of the riser.

It may further include a shut-off valve installed on the vertical pipe, the opening valve when the difference between the pressure applied from the outside and the pressure applied from the inside is more than a predetermined value.

According to the present invention described above, the installation place can be reduced by embedding a 'U'-shaped pipe line inside the vertical pipe, the vertical pipe is made transparent to easily check the internal state.

The water evaporation prevention liquid is contained to prevent condensate from evaporating inside the 'U' conduit, and when the condensate or water evaporation prevention liquid in the 'U' conduit decreases, it can be replenished through the inlet. . In addition, when the condensate and the water evaporation preventing liquid is evaporated and absent, the shutoff valve blocks the outside air from entering the duct.

The vertical tube can be made double or prevent freezing by including a temperature raising device.

And, there is a scale on the outer wall of the vertical pipe can be confirmed through this internal pressure.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention.

2 is a view illustrating a state in which a condensate drainage device is installed, and FIG. 3 is a cross-sectional view illustrating an inside of the condensate drainage device.

Referring to FIG. 2, the condensate drain device 100 according to the present invention is vertically connected to the lower portion of the duct 1 through the condensate collecting part 2 and the valve 3. The condensate generated in the duct 1 is collected in the condensate collecting unit 2 and then flows into the condensate drain device 100 through the valve 3. The valve 3 opens when the condensate inside the duct 1 is drained. The valve 3 is always open and is manually locked in the replacement or repair of the condensate drain device 100.

Referring to FIG. 3, the condensate drainage device 100 includes a transparent vertical pipe 110 and first and second partitions 120 and 130 installed inside the vertical pipe.

Vertical pipe 110 is in the form of a vertical column. By having such a shape, it is possible to install even in a narrow space with a narrow piping range and to facilitate space utilization. The vertical tube 110 may be made of a transparent material to observe the inside for the purpose of checking whether there is a foreign substance. The vertical pipe 110 is coupled to the lower side of the valve 3 using a bolt-nut coupling or the like. The vertical pipe 110 may be manufactured as a double wall to prevent freezing of water (condensed water) W inside the vertical pipe 110 by cold outside air. Alternatively, a temperature raising device (not shown) may be installed on the outer wall of the vertical pipe 110 to increase the temperature of the vertical pipe 110 by using electricity or hot water. The temperature raising device can also heat air or other medium in the double wall.

The first partition 120 extends horizontally from one inner surface of the vertical pipe 110 and then extends vertically downward, and the second partition 130 extends horizontally from the other inner surface of the vertical pipe 110. And then installed to extend vertically upward. Thus, the first and second partitions 120 and 130 form a 'U' shaped conduit. That is, referring to FIG. 3, the 'U'-shaped pipe is a space between the wall of the vertical pipe 110 and the first partition 120, a space between the first partition 120 and the second partition 130, and It is formed by the space between the wall of the vertical pipe 110 and the second partition 130. The condensate (W) is stored in the wall of the vertical pipe 110 and the reservoir generated by the second partition 130. Due to the difference between the pressure of the duct 1 and the external pressure, the level of the condensed water W is different on both sides of the first partition 120.

The upper portion of the condensate (W) contains the water evaporation prevention liquid (O). The water evaporation preventing liquid (O) is a liquid that is lighter than water and has a very small evaporation rate. The water evaporation preventing solution (O) is located on the surface of the condensate (W) to prevent the condensate (W) to evaporate, and the condensate (W) is always accumulated in the 'U' conduit. Thus, outside air is prevented from entering the duct 1.

On the other hand, despite the water evaporation preventing liquid (W), when used for a long time, the condensate (O) and the water evaporation preventing liquid (W) may evaporate and disappear. In this case, a shutoff valve 160 is installed in the upper portion of the vertical pipe 110 (between the vertical pipe 110 and the valve 3) to prevent external air from flowing into the duct through the condensate drain device 100. Can be. The shutoff valve 160 is configured to open when the difference between the pressure applied outside the shutoff valve 160 and the pressure applied inside the shutoff valve 160 is greater than or equal to a preset value. That is, when condensate flows from the duct 1 and accumulates above the shutoff valve 160, the pressure applied to the outside of the shutoff valve 160 increases due to the load of the condensate, and the external pressure and the internal pressure of the shutoff valve 160 are increased. Since the difference is greater than the set value, the shutoff valve 160 is opened and the condensate accumulated in the shutoff valve 160 flows into the vertical pipe 110. If there is little or no condensate above the shutoff valve 160, the shutoff valve 160 is closed and external air flows into the duct 1 even though there is no condensate (W) and water evaporation prevention liquid (O) in the 'U' conduit. To be blocked.

An injection hole 140 may be formed in the vertical pipe 110. The injection hole 140 is used to inject the water evaporation preventing liquid or water when the water evaporation preventing liquid or the water is insufficient in the condensate drainage device 100. The lack of water evaporation solution or water can be confirmed through the transparent vertical tube (110).

In addition, the discharge pipe 170 may be formed in the vertical pipe 110. The discharge port 170 is installed to discharge foreign substances and other contaminants in the condensate drain device 100.

On the other hand, outside the vertical pipe 110 is drawn a scale 150 that can measure the height of the condensate (W). By measuring the height of the condensate W through the scale 150, the condensate drainage device 100 can be used as a meter (manometer) to measure the internal pressure. That is, since the height of the condensate (W) has a correlation with the difference between the pressure inside the duct 1 and the atmospheric pressure, the pressure inside the duct 1 can be measured through the scale 150. Therefore, when the condensate drainage device 100 according to the present invention is used, the pressure of the duct 1 can be measured without installing a separate pressure sensor in the duct 1.

Although the present invention has been described in connection with the above-described preferred embodiments, it will be readily apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the invention, all such modifications and modifications being attached It is obvious that it belongs to the scope of the claims.

1 is a view showing a condensate drainage device according to the prior art,

2 shows a condensate drainage device according to the invention, and

3 is a cross-sectional view of the condensate drainage device of FIG.

<Description of Drawing>

100: condensate drainage

110: vertical tube

120: the first partition

130: second partition

140: injection hole

150: graduation

160: shut-off valve

170: outlet

Claims (7)

Is installed in the lower side of the duct to drain the condensate generated in the duct, A transparent vertical pipe coupled vertically to the lower side of the duct; A first partition extending horizontally from one inner surface of the vertical pipe and extending vertically downward; A second partition extending horizontally from the other inner surface of the vertical pipe and extending vertically upward; And It is installed in the upper vertical pipe, and includes a shut-off valve that is opened when the difference between the pressure applied from the outside and the pressure applied from the inside is more than a predetermined value, The first partition and the second partition is a condensate drainage, characterized in that to form a 'U'-shaped pipe in the vertical pipe. The method of claim 1, Condensate drainage, characterized in that the water evaporation prevention liquid is contained in the upper portion of the 'U'-shaped pipe. The method of claim 2, The vertical pipe further comprises an inlet for injecting the water evaporation preventing liquid into the 'U'-shaped conduit. The method of claim 1, Condensate drainage, characterized in that the vertical pipe is made in duplicate. The method of claim 1, The vertical pipe further comprises a temperature raising device for increasing the temperature of the vertical pipe condensate drainage. The method of claim 1, And the vertical pipe further comprises a scale formed on the outer wall of the vertical pipe to operate as a positive pressure check gauge. delete

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